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Energy Efficiency of Optoelectronic Devices in Simulated Polluted Conditions

[ Vol. 7 , Issue. 2 ]

Author(s):

Khaled Habib*, Fathi Al-Sabti and Adel Fakhraldeen   Pages 122 - 126 ( 5 )

Abstract:


Background: The energy efficiency of optoelectronic devices in aqueous solutions was derived using a simple mathematical criterion. The criterion was based on calculating the limit of the ratio value of the conductivity of an optoelectronic material in aqueous solution (σs) to the conductivity of the optoelectronic material in air (σair). In other words, the criterion; lim (σs/σair) =1 was applied to determine the energy efficiency of the optoelectronic material in the aqueous solution when σs became equal (decreased) to σair as a function of time of the exposure of the material to the aqueous solution. The values of σs and σair were determined by the electrochemical impedance spectroscopy (EIS). The energy efficiency of an optoelectronic devise, i.e., computer disc(CD) material, was evaluated in distilled water and polluted water with a predetermined period of optoelectronic operations.

Methods: The electrochemical impedance spectroscopy (EIS) was used to determine values of σs and σair of the computer disc(CD) material, Al2O3, in distilled water and a polluted water.

Results: The energy efficiency of the computer disc(CD) material, Al2O3, was evaluated in distilled water and polluted water with a predetermined period of 12 months.

Conclusion: A derived analytical model (lim (σs/σair) =1, as σs → σair) of the energy efficiency of optoelectronic materials was used to Plot; lim (σs/σair) vs. time of exposure of the pure Al, Al2O3, and Al2O3 in air, distilled water, and polluted water, respectively. Therefore, plots of the lim (σs/σair) vs. time of exposure like those of Figs. (2-4) can be standard plots of energy efficiency for different kinds of optoelectronic material.

Keywords:

Compact disc (CD) material, conductivity, electrochemical impedance spectroscopy (EIS), energy efficiency, distilled water, optoelectronic devices.

Affiliation:

Materials Science and Photo-Electronics Lab., RE Program, EBR Center, KISR, Safat, Materials Science and Photo-Electronics Lab., RE Program, EBR Center, KISR, Safat, Materials Science and Photo-Electronics Lab., RE Program, EBR Center, KISR, Safat

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